'use strict';

const url = require('url');
const { EventEmitter } = require('events');
const { Readable, Writable } = require('stream');
const { app } = require('electron');
const { Session } = process.electronBinding('session');
const { net, Net, isValidHeaderName, isValidHeaderValue, createURLLoader } = process.electronBinding('net');

const kSupportedProtocols = new Set(['http:', 'https:']);

// set of headers that Node.js discards duplicates for
// see https://nodejs.org/api/http.html#http_message_headers
const discardableDuplicateHeaders = new Set([
  'content-type',
  'content-length',
  'user-agent',
  'referer',
  'host',
  'authorization',
  'proxy-authorization',
  'if-modified-since',
  'if-unmodified-since',
  'from',
  'location',
  'max-forwards',
  'retry-after',
  'etag',
  'last-modified',
  'server',
  'age',
  'expires'
]);

class IncomingMessage extends Readable {
  constructor (responseHead) {
    super();
    this._shouldPush = false;
    this._data = [];
    this._responseHead = responseHead;
  }

  get statusCode () {
    return this._responseHead.statusCode;
  }

  get statusMessage () {
    return this._responseHead.statusMessage;
  }

  get headers () {
    const filteredHeaders = {};
    const { rawHeaders } = this._responseHead;
    rawHeaders.forEach(header => {
      if (Object.prototype.hasOwnProperty.call(filteredHeaders, header.key) &&
          discardableDuplicateHeaders.has(header.key)) {
        // do nothing with discardable duplicate headers
      } else {
        if (header.key === 'set-cookie') {
          // keep set-cookie as an array per Node.js rules
          // see https://nodejs.org/api/http.html#http_message_headers
          if (Object.prototype.hasOwnProperty.call(filteredHeaders, header.key)) {
            filteredHeaders[header.key].push(header.value);
          } else {
            filteredHeaders[header.key] = [header.value];
          }
        } else {
          // for non-cookie headers, the values are joined together with ', '
          if (Object.prototype.hasOwnProperty.call(filteredHeaders, header.key)) {
            filteredHeaders[header.key] += `, ${header.value}`;
          } else {
            filteredHeaders[header.key] = header.value;
          }
        }
      }
    });
    return filteredHeaders;
  }

  get httpVersion () {
    return `${this.httpVersionMajor}.${this.httpVersionMinor}`;
  }

  get httpVersionMajor () {
    return this._responseHead.httpVersion.major;
  }

  get httpVersionMinor () {
    return this._responseHead.httpVersion.minor;
  }

  get rawTrailers () {
    throw new Error('HTTP trailers are not supported');
  }

  get trailers () {
    throw new Error('HTTP trailers are not supported');
  }

  _storeInternalData (chunk) {
    this._data.push(chunk);
    this._pushInternalData();
  }

  _pushInternalData () {
    while (this._shouldPush && this._data.length > 0) {
      const chunk = this._data.shift();
      this._shouldPush = this.push(chunk);
    }
  }

  _read () {
    this._shouldPush = true;
    this._pushInternalData();
  }
}

/** Writable stream that buffers up everything written to it. */
class SlurpStream extends Writable {
  constructor () {
    super();
    this._data = Buffer.alloc(0);
  }

  _write (chunk, encoding, callback) {
    this._data = Buffer.concat([this._data, chunk]);
    callback();
  }
  data () { return this._data; }
}

class ChunkedBodyStream extends Writable {
  constructor (clientRequest) {
    super();
    this._clientRequest = clientRequest;
  }

  _write (chunk, encoding, callback) {
    if (this._downstream) {
      this._downstream.write(chunk).then(callback, callback);
    } else {
      // the contract of _write is that we won't be called again until we call
      // the callback, so we're good to just save a single chunk.
      this._pendingChunk = chunk;
      this._pendingCallback = callback;

      // The first write to a chunked body stream begins the request.
      this._clientRequest._startRequest();
    }
  }

  _final (callback) {
    this._downstream.done();
    callback();
  }

  startReading (pipe) {
    if (this._downstream) {
      throw new Error('two startReading calls???');
    }
    this._downstream = pipe;
    if (this._pendingChunk) {
      const doneWriting = (maybeError) => {
        const cb = this._pendingCallback;
        delete this._pendingCallback;
        delete this._pendingChunk;
        cb(maybeError);
      };
      this._downstream.write(this._pendingChunk).then(doneWriting, doneWriting);
    }
  }
}

function parseOptions (options) {
  if (typeof options === 'string') {
    options = url.parse(options);
  } else {
    options = { ...options };
  }

  const method = (options.method || 'GET').toUpperCase();
  let urlStr = options.url;

  if (!urlStr) {
    const urlObj = {};
    const protocol = options.protocol || 'http:';
    if (!kSupportedProtocols.has(protocol)) {
      throw new Error('Protocol "' + protocol + '" not supported');
    }
    urlObj.protocol = protocol;

    if (options.host) {
      urlObj.host = options.host;
    } else {
      if (options.hostname) {
        urlObj.hostname = options.hostname;
      } else {
        urlObj.hostname = 'localhost';
      }

      if (options.port) {
        urlObj.port = options.port;
      }
    }

    if (options.path && / /.test(options.path)) {
      // The actual regex is more like /[^A-Za-z0-9\-._~!$&'()*+,;=/:@]/
      // with an additional rule for ignoring percentage-escaped characters
      // but that's a) hard to capture in a regular expression that performs
      // well, and b) possibly too restrictive for real-world usage. That's
      // why it only scans for spaces because those are guaranteed to create
      // an invalid request.
      throw new TypeError('Request path contains unescaped characters');
    }
    const pathObj = url.parse(options.path || '/');
    urlObj.pathname = pathObj.pathname;
    urlObj.search = pathObj.search;
    urlObj.hash = pathObj.hash;
    urlStr = url.format(urlObj);
  }

  const redirectPolicy = options.redirect || 'follow';
  if (!['follow', 'error', 'manual'].includes(redirectPolicy)) {
    throw new Error('redirect mode should be one of follow, error or manual');
  }

  if (options.headers != null && typeof options.headers !== 'object') {
    throw new TypeError('headers must be an object');
  }

  const urlLoaderOptions = {
    method: method,
    url: urlStr,
    redirectPolicy,
    extraHeaders: options.headers || {},
    useSessionCookies: options.useSessionCookies || false
  };
  for (const [name, value] of Object.entries(urlLoaderOptions.extraHeaders)) {
    if (!isValidHeaderName(name)) {
      throw new Error(`Invalid header name: '${name}'`);
    }
    if (!isValidHeaderValue(value.toString())) {
      throw new Error(`Invalid value for header '${name}': '${value}'`);
    }
  }
  if (options.session) {
    if (options.session instanceof Session) {
      urlLoaderOptions.session = options.session;
    } else {
      throw new TypeError('`session` should be an instance of the Session class');
    }
  } else if (options.partition) {
    if (typeof options.partition === 'string') {
      urlLoaderOptions.partition = options.partition;
    } else {
      throw new TypeError('`partition` should be a string');
    }
  }
  return urlLoaderOptions;
}

class ClientRequest extends Writable {
  constructor (options, callback) {
    super({ autoDestroy: true });

    if (!app.isReady()) {
      throw new Error('net module can only be used after app is ready');
    }

    if (callback) {
      this.once('response', callback);
    }

    const { redirectPolicy, ...urlLoaderOptions } = parseOptions(options);
    this._urlLoaderOptions = urlLoaderOptions;
    this._redirectPolicy = redirectPolicy;
    this._started = false;
  }

  set chunkedEncoding (value) {
    if (this._started) {
      throw new Error('chunkedEncoding can only be set before the request is started');
    }
    if (typeof this._chunkedEncoding !== 'undefined') {
      throw new Error('chunkedEncoding can only be set once');
    }
    this._chunkedEncoding = !!value;
    if (this._chunkedEncoding) {
      this._body = new ChunkedBodyStream(this);
      this._urlLoaderOptions.body = (pipe) => {
        this._body.startReading(pipe);
      };
    }
  }

  setHeader (name, value) {
    if (typeof name !== 'string') {
      throw new TypeError('`name` should be a string in setHeader(name, value)');
    }
    if (value == null) {
      throw new Error('`value` required in setHeader("' + name + '", value)');
    }
    if (this._started || this._firstWrite) {
      throw new Error('Can\'t set headers after they are sent');
    }
    if (!isValidHeaderName(name)) {
      throw new Error(`Invalid header name: '${name}'`);
    }
    if (!isValidHeaderValue(value.toString())) {
      throw new Error(`Invalid value for header '${name}': '${value}'`);
    }

    const key = name.toLowerCase();
    this._urlLoaderOptions.extraHeaders[key] = value;
  }

  getHeader (name) {
    if (name == null) {
      throw new Error('`name` is required for getHeader(name)');
    }

    const key = name.toLowerCase();
    return this._urlLoaderOptions.extraHeaders[key];
  }

  removeHeader (name) {
    if (name == null) {
      throw new Error('`name` is required for removeHeader(name)');
    }

    if (this._started || this._firstWrite) {
      throw new Error('Can\'t remove headers after they are sent');
    }

    const key = name.toLowerCase();
    delete this._urlLoaderOptions.extraHeaders[key];
  }

  _write (chunk, encoding, callback) {
    this._firstWrite = true;
    if (!this._body) {
      this._body = new SlurpStream();
      this._body.on('finish', () => {
        this._urlLoaderOptions.body = this._body.data();
        this._startRequest();
      });
    }
    // TODO: is this the right way to forward to another stream?
    this._body.write(chunk, encoding, callback);
  }

  _final (callback) {
    if (this._body) {
      // TODO: is this the right way to forward to another stream?
      this._body.end(callback);
    } else {
      // end() called without a body, go ahead and start the request
      this._startRequest();
      callback();
    }
  }

  _startRequest () {
    this._started = true;
    const stringifyValues = (obj) => {
      const ret = {};
      for (const k of Object.keys(obj)) {
        ret[k] = obj[k].toString();
      }
      return ret;
    };
    const opts = { ...this._urlLoaderOptions, extraHeaders: stringifyValues(this._urlLoaderOptions.extraHeaders) };
    this._urlLoader = createURLLoader(opts);
    this._urlLoader.on('response-started', (event, finalUrl, responseHead) => {
      const response = this._response = new IncomingMessage(responseHead);
      this.emit('response', response);
    });
    this._urlLoader.on('data', (event, data) => {
      this._response._storeInternalData(Buffer.from(data));
    });
    this._urlLoader.on('complete', () => {
      if (this._response) { this._response._storeInternalData(null); }
    });
    this._urlLoader.on('error', (event, netErrorString) => {
      const error = new Error(netErrorString);
      if (this._response) this._response.destroy(error);
      this._die(error);
    });

    this._urlLoader.on('login', (event, authInfo, callback) => {
      const handled = this.emit('login', authInfo, callback);
      if (!handled) {
        // If there were no listeners, cancel the authentication request.
        callback();
      }
    });

    this._urlLoader.on('redirect', (event, redirectInfo, headers) => {
      const { statusCode, newMethod, newUrl } = redirectInfo;
      if (this._redirectPolicy === 'error') {
        this._die(new Error('Attempted to redirect, but redirect policy was \'error\''));
      } else if (this._redirectPolicy === 'manual') {
        let _followRedirect = false;
        this._followRedirectCb = () => { _followRedirect = true; };
        try {
          this.emit('redirect', statusCode, newMethod, newUrl, headers);
        } finally {
          this._followRedirectCb = null;
          if (!_followRedirect && !this._aborted) {
            this._die(new Error('Redirect was cancelled'));
          }
        }
      } else if (this._redirectPolicy === 'follow') {
        // Calling followRedirect() when the redirect policy is 'follow' is
        // allowed but does nothing. (Perhaps it should throw an error
        // though...? Since the redirect will happen regardless.)
        try {
          this._followRedirectCb = () => {};
          this.emit('redirect', statusCode, newMethod, newUrl, headers);
        } finally {
          this._followRedirectCb = null;
        }
      } else {
        this._die(new Error(`Unexpected redirect policy '${this._redirectPolicy}'`));
      }
    });

    this._urlLoader.on('upload-progress', (event, position, total) => {
      this._uploadProgress = { active: true, started: true, current: position, total };
      this.emit('upload-progress', position, total); // Undocumented, for now
    });

    this._urlLoader.on('download-progress', (event, current) => {
      if (this._response) {
        this._response.emit('download-progress', current); // Undocumented, for now
      }
    });
  }

  followRedirect () {
    if (this._followRedirectCb) {
      this._followRedirectCb();
    } else {
      throw new Error('followRedirect() called, but was not waiting for a redirect');
    }
  }

  abort () {
    if (!this._aborted) {
      process.nextTick(() => { this.emit('abort'); });
    }
    this._aborted = true;
    this._die();
  }

  _die (err) {
    this.destroy(err);
    if (this._urlLoader) {
      this._urlLoader.cancel();
      if (this._response) this._response.destroy(err);
    }
  }

  getUploadProgress () {
    return this._uploadProgress ? { ...this._uploadProgress } : { active: false };
  }
}

Net.prototype.request = function (options, callback) {
  return new ClientRequest(options, callback);
};

net.ClientRequest = ClientRequest;

module.exports = net;
